Patent Application
20060005430
This invention relates to a footwear article of a new type designed to protect the feet and legs of a user when engaging in an extreme sport.
Yet known footwear articles comprise:
Such a footwear article is in particular disclosed in FR-A-2 656 776 or WO-A-01 89335.
The object of the invention is to improve the protection and comfort of users, and to increase the production volumes of such articles.
In order to do this the invention provides for the provision of a set of articulations having different mechanical resistance characteristics to adjust to the physiological differences between the users of such footwear articles and/or differences between the sports for which the said footwear articles may be used.
Furthermore, according to the invention, the first shell, to which the articulation is linked, may be used for many sports without any technical modification (apart from a few aesthetic differences) and for all users whose feet have substantially the same dimensions (in other words the same shoe size).
Finally, still according to the invention, the second shell to which the articulation is linked may be used without any fundamental technical modification for all users whose feet have substantially the same dimensions. In other words it is possible to provide a range of second similar shells to cover a range of sports. Within the range of second shells there may be a number of minor technical differences between the second shells (slight shortening of the top in some cases) for the practice of particular sports.
In other words the invention relates to a set comprising at least:
Thus on the one hand the mechanical characteristics of the articulations will be better suited to the physiological characteristics (in particular weight and muscular strength) of the users and on the other hand it will be possible to cover an extensive range of sports such as motocross, snowboarding, mountain biking or roller blading without having to design a new product.
In accordance with an advantageous feature of the invention, in particular when the first and second footwear articles are intended for the same sport, the second shell of the first footwear article is substantially identical to the second shell of the second footwear article.
The cost of manufacturing footwear articles is thus reduced.
According to another advantageous feature of the invention, the articulation for each footwear article is separate from the first shell and the second shell, and the articulation for the first footwear article can replace the articulation of the second footwear article and vice versa.
It will be understood that the articulation of the first article may replace the articulation of the second article in particular where the space provided in the first and the second shell of the second footwear article is sufficient to receive the first articulation, and the areas for attachment of the first articulation coincide with the areas of attachment for the first shell and the second shell of the second footwear article, the said attachment areas receiving attachment means designed to hold the articulation on the first and second shells.
Vendors will thus be able to stock footwear articles without articulations and the articulations, and to assemble them in relation to the customer's physiological characteristics and the sport in which he intends to engage without having to stock all possible combinations, as a result of which stocks can be reduced. In addition to this it is possible to replace the articulation alone, when it has been damaged and the remainder of the footwear article is still in good condition.
In order to improve the user's comfort still further without reducing protection the invention provides that the articulation for each footwear item will permit rotation of the top in relation to the body in two axes of rotation which are substantially perpendicular to each other and lateral movement of the hinge axis in relation to the body to cause the axis of rotation of the articulation to coincide substantially with the axis of rotation of the user's foot in relation to his leg.
In this way the boot will match the user's shape, and provide greater mobility and a feeling of greater flexibility by more faithfully following the complexity of the ankle's movements.
A simple and robust articulation having the aforesaid characteristics will be such that:
In order to obtain different mechanical characteristics between the articulations of the first and second footwear articles according to the invention, the ribs of the first footwear article and the ribs of the second footwear article are constructed of different materials.
Provision may also be made for ribs of different cross-section for the first and second footwear articles.
According to another advantageous feature of the invention, the two elastically deformable members for each footwear article will have different mechanical characteristics.
Thus the deformation resistance characteristics may be matched more precisely to the user's needs for protection, in particular because of the imperfect symmetry of the ankle link between the foot and the leg.
In order to increase protection of the user according to another advantageous feature, the upward direction and the longitudinal direction defining a median plane, the footwear article will also comprise stops to limit the amplitude of rotation in the median plane to a value of between 50 degrees and 60 degrees.
This will make it possible to avoid trauma or injuries while permitting great freedom of movement.
According to a supplementary feature the invention provides that each footwear article will also comprise stops to limit the amplitude of rotation in the longitudinal direction to a value between 25 degrees and 35 degrees.
Translational movement of the axis of the articulations in relation to the body, if of small amplitude, advantageously between 5 millimetres and 15 millimetres, will nevertheless provide freedom of movement while effectively holding the user's ankle.
The invention will be even more clearly apparent from the following description with reference to the appended drawings in which:
FIGS. 1 to 7 illustrate a boot 1 comprising a body 2 below intended to receive the foot of a user, and a top 4 above, intended to receive the leg of a user, and in-between an articulation device 6 connecting top 4 to body 2.
Body 2 and top 4 each comprise a relatively rigid shell designed to protect the user's lower limbs. These shells may be locally perforated. They are lined on the inside for the user's comfort and may be lined on the outside. The body extends in a substantially horizontal longitudinal direction 8 when the user places his foot on a horizontal surface, while the top extends in a substantially vertical upward direction 10.
Longitudinal direction 8 and upward direction 10 define a median plane P parallel to the plane of illustration in FIGS. 1 to 3. The boot has an inner side 1a and an outer side 1b on either side of median plane P.
Boot 1 also has a transverse direction 12 extending substantially perpendicular to longitudinal direction 8 and upward direction 10.
The articulation device comprises two structures 14, 14′ having an elastically deformable geometry arranged substantially symmetrically in relation to plane P, one on inner side 1a and the other on outer side 1b.
Each structure 14, 14′ mainly comprises a front rib 16 and a rear rib 18 (the ribs of structure 14′ cannot be seen in the figures), each curving inward, of a substantially V, U or C shape. Each rib comprises an upper limb 16a, 18a and a lower limb 16b, 18b. Each limb 16a, 16b, 18a, 18b extends between a first extremity 16a1, 16b1, 18a1, 18b1 respectively and a second extremity 16a2, 16b2, 18a2, 18b2 respectively.
The first extremities 16a1, 16b1 of the limbs of front rib 16 are connected together in a front apical area 20 to permit rotation between upper limb 16a and lower limb 16b. The first extremities 18a1, 18b1 of the limbs of rear rib 18 are connected together in a rear apical area 22 permitting rotation between upper limb 18a and lower limb 18b.
The second extremities 16b2, 18b2 of the lower limbs are secured to body 2, while the second extremities 16a2, 18a2 of the upper limbs are secured to top 4.
Front rib 16 and rear rib 18 have more the shape of an open V, as illustrated in FIGS. 1 to 3, when apical areas 20, 22 are very close together, more the shape of an open U when these areas 20, 22 are relatively far apart, and more the shape of a C when the areas 20, 22 are well apart.
They are advantageously arranged in opposition, in other words symmetrically in relation to upward direction 10. Here they open opposite each other in such a way that each structure 14 substantially has the shape of a deformable parallelogram. As an alternative they may be placed back to back so that each structure 14 substantially has a deformable >< shape.
Articulation device 6 further comprises two pivots 24, 26 extending substantially in the transverse direction between front rib 16 and rear rib 18. They are attached to body 2 and each slide in a groove 28, 30 made in top 4. Grooves 28, 30 are each of oblong shape and substantially extend along upward direction 10 between an upper extremity 28a, 30a and a lower extremity 28b, 30b advantageously approximately 10 millimetres apart.
Thus pivots 24, 26 control the deformation of structures 14, 14′ and can move in the upward direction so that variable geometry structures 14, 14′ thus define a floating articulation device substantially positioned level with the malleolus on either side of a user's ankle.
As illustrated in
As illustrated in
Furthermore, during these flexion and extension movements upper limbs 16a, 18a pivot in relation to top 4 through elastic deformation close to their second extremities 16a2, 18a2 in the same way that lower limbs 16b, 18b pivot in relation to body 2 through elastic deformation in the vicinity of their second extremities 16b2, 18b2.
As pivots 24, 26 can slide in grooves 28, 30, in the position of extreme flexion top 4 abuts against body 2 at the front and pivots 24, 26 approach the upper extremities 28a, 30a of grooves 28, 30 to follow the movement of the user's malleolus. If the flexural movement were to be continued, pivots 24, 26 would tend to slide towards the bottom extremity of grooves 28, 30. As such a movement would likely to be damaging to the user, boot 1 also comprises a rear stop device 32.
As illustrated in
As identified in
In a position of extreme extension top 4 abuts against body 2 at the rear and pivots 24, 26 abut against the lower extremities 28b, 30b of grooves 28, 30.
As referenced in
Through their parallelogram geometry, structures 14, 14′ also permit lateral deformation in a direction substantially parallel to longitudinal direction 8, in order to accompany the user's foot in its movements towards forward leaning and backward leaning positions and its combined torsional movements.
As illustrated in
Conversely, as far as structure 14′ is concerned, the upper limbs move away from the lower limbs through deformation of the front and rear apical areas. In addition to this pivot 26 moves towards the lower extremity 26b of groove 26.
In the extreme forward position of the boot pivot 24 abuts against the upper extremity 28a of groove 28 and pivot 26 abuts against the lower extremity 26b of groove 26. The amplitude θ1 of the forward movement permitted by articulation device 6 in relation to the initial position illustrated in
As illustrated in
As far as structure 14′ is concerned, the upper limbs move towards the lower limbs through deformation of the front and rear′ apical areas. In addition to this pivot 26 moves towards the upper extremity 26a of groove 26.
In the extreme backward position of the boot, pivot 24 abuts against the lower extremity 28b of groove 28 and pivot 26 abuts against the upper extremity 26a of groove 26. The amplitude θ2 of the backward movement permitted by articulation device 6 in relation to the initial position illustrated in
Articulation device 6 further comprises an elastically deformable damping material 36 which differs from that comprising ribs 16, 18. This damping material 36 is located between ribs 16, 18 and fills the space separating limbs 16a, 16b; 18a, 18b of the ribs.
When structures 14, 14′ deform in relation to the initial position, damping material 36 is stretched or compressed. It therefore exerts an increasing resistance force which will prevent or at least reduce the speed of impact when the articulation device reaches the stop.
Advantageously damping material 36 appended to structure 14, in other words located on inner side 1a, and that adjacent to structure 14′, in other words located on outer side 1b, are different, in order to obtain asymmetric behaviour of articulation device 6. Likewise structures 14, 14′ may have different mechanical characteristics as indicated previously.
The material of structures 14, 14′ with elastically deformable geometry advantageously comprises man-made polymers such as polyamides or polyurethanes. The damping material advantageously has weaker mechanical strength characteristics. It may in particular comprise polyurethane foam or an elastomer.
As illustrated, structures 14, 14′ are each separate from body 2 and top 4. Each structure 14, 14′ here forms a single piece and incorporates front rib 16 and rear rib 18 into one piece. The said structures each comprise two fixing holes 48, 50 and are respectively secured to body 2 by a rivet 52 passing through fixing hole 48 provided in the structure and a fixing hole 44 provided in body 2, and to top 4 through a rivet 54 passing through fixing hole 50 provided in the structure and a fixing hole 46 provided in top 4.
Fixing holes 44 in the body, fixing holes 46 in the top, fixing holes 48, 50 in structure 14 and rivets 52, 54 constitute the means of attachment 42 for structure 14 to body 2 and top 4. Structure 14′ comprises identical means of attachment.
Boot 101 is essentially distinguished from boot 1 in that ribs 116, 118 in each of the articulation structures have a cross-section and in particular here a thickness e (which is substantially constant) substantially less than the thickness E of ribs 16, 18. Thus the flexing force of boot 101 is less than that of boot 1.
The material of the ribs may also be changed to alter the flexion modulus of the boot, using carbon for example instead of a plastics material.
Top 104 of boot 101 is substantially shortened in comparison with top 4 of boot 1 in that protection for roller blading does not need to cover a large part of the leg.
In order to illustrate a variant of attachment means 142, the fixing holes have been doubled in comparison with attachment means 42 and comprise two fixing holes in body 102 and two fixing holes in top 104, with which four corresponding holes in structure 114—148a, 148b, 150a, 150b respectively—coincide. In addition to this the two rivets 52, 54 have been replaced by four bolts 152a, 152b, 154a, 154b which allow for easier replacement of structure 114. As an alternative to rivets and bolts pins or any other means performing the same function may be provided.
Of course once the most satisfactory means of attachment has been determined it is preferable that the number of fixing holes should not be changed from one boot to another, so that one articulation device can be replaced by any other device.
This articulation structure 214 is essentially distinguished from structure 114, apart from its cross-section, in that it comprises a front rib 216 which is separate from rear rib 218 and in that the ribs are substantially C shaped.
Of course the various means of attachment described and the various structures described may be combined together and used with each of the boots illustrated.
| Number | Date | Country | Kind |
|---|---|---|---|
| 02/14902 | Nov 2002 | FR | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/FR03/03469 | 11/24/2003 | WO | 5/27/2005 |
